Kitchen utility device



1941 R. H. JORDAN 2,247,707

KITCHEN UTILITY DEVICE Filed Nov. 23, 1938 8 Sheets-Sheet l @Q iafv" -j wam July 1, 119 R. H. JORDAN- KITCHEN UTILITY DEVICE 8 Sheets-Sheet 2 Filed Nov. 23, 1938 I mm July 1, 1941.

. R. H QRDAN KITCHEN UTILITY DEVICE Filed Nbv. 23, 1938 8 Sheets-sheaf;

4 s y mlllll/Ifllfll/M vvv July 1, 1941. R. H. JORDAN I KITCHEN UTILITY-DEVICE 8 Sheets-Sheet 5 Filed Nov. 23, 1958 July 1, 1941; R. H. JORDAN 2,247,707

KITCHEN UTILITY DEVICE Filed Nov. '23, 1958 s Sheds-Sheet 5 mm: i 135 I J I Mama,

July1,1941- R H. JORDAN v I 2,247,707

' V KITCHEN UTILITY DEVICE Filed Nov. 23, 1933 a Sheets-Sheet -'1 7'0 L l/VE I li and Patented July 1,' 1941 woman- DEVICE Richard liii. Jordan, Hamden, Com, assor to The A. 8. Gilbert om a corporation of t an? New Haven, 66, land Application November 23, i938, Serial No. 241L966 6 Claims. (CL 25-10d) This invention relates to electric motor-operated kitchen utility devices for mixing, beating and extracting edible products.

The invention has particular reference to devices of the general type disclosed in Patent No.

2,027,036 of Alfred 0. Gilbert and Shirley P. Morse, in which there are provided ,a pair of mixing or beating agitators adapted to operate in a rotatably supported mixing bowl, a. juice reamer adapted to operate in a juice-collecting and discharging bowl, and a power shaft, said power shaft having associated therewith a socket or outlet for the connection of various appliances, such as food choppers, coflee grinders, ice cube breakers, and the like.

One objectof my invention is to improve the construction of devices of the type above mentioned', more particularly with the object of increasing their power and efliciency and their I convenience and range 01' use.

Another object is to improve thegen'eral organization of'thc parts or members of such devices in a manner, that lends itselfparticularly' well too. stream-lined device which is not only attractive in appearance but is easier to keep clean, and, furthermore, to a device which is of composite construction in that, while the main working parts are of metal, the casing enclosing tion of parts have particular relation to the manner of dividing the motor and gear casing and securing the parts together with relation to each other and to the supporting handle, to the general arrangement of the juicer shaft and power shaft assembly, and similar features It is aimed to improve the detailsof the device in such features as the means for controllingthe upward" and downward swinging oi the 1 motor member on its pedestal, the means permittingvertical adjustment of the tumtable on which the mining bowl is supported, the manner of constructlng and mounting the-heaters or agitators,

and other features referred to as the description" proceeds I In the accompanying drawings:

rig. -1'is a side elevation of a kitchen unmy device embodying my improvements, showing the the Juice-col"- mixing bowl in dotted lines, and lecting 'bowl also in dotted lines;

Fig. 2; is a. top plan view pf the device shown in Fig. i; I r

Fig. 3 is a front elevation of the device, with the juice bowl in dotted lines;

Fig. 4 is a horizontal section on line 6-4 of gig. 5 is a. vertical section on line 5-501 Fig. 1; I

i 6 is an enlargedvertical sectional view of a portion of the pedestal, the pivoted bracket, and a portion of the motor member showing the motor member swung to the upper limit of its movement; I Fig. 7 is a detail section on line 5-1 of. Fig. 6;

Fig. 8 is a detail showing the speed control knob in side elevation; r

Fig. 9 is a section on line 8-5 of Fig. 4; Fig. 10 is a. front end elevation of the rear section of the motor memher withits associated" parts as, it appears before assembly withthq front parts of, the motor member; .1

Fig. 10A is a fragmentary side elevation of the member shown in Fig. 10;

Figs. 11, 12. and 13 are rear views middle and lowermembers, respectively, of the front section or part of the motor member;

Fig. 14 is a transverse section on line I i-ll -o1'Fig. 28;

Figs. 15 and iii-are detail sections on lines I5-I5 and lB--i8, respectively, of Fig. 9; Fig. 17 is a section on line 51-47 or Fig". 3;" Fig. 17A is'a reareievation or the'middle mem-" ber of the front section-showing it carrying'the juicer shaft and power shaft a ssembly f I Fig. 173 is abottomfpian view-oi the parts shown in Fig. 17A;

Fig. 18 is a. section on line-+43 or 3;

motor member showing the; power socket;

Fig. 19 is a front elevation of; a portion o f j \FIQ'DIQA is "a.d tail"secuonjsliowmgthe cios is:

plug mounted inth power new,

h so e j' t e I rin s iss' uemu bottonnviw ot' s poruon or a base showing the mixing bowl adiusting means:

of the upper,

fly, showing'alsoth rrange f ment oi. themotor circ nt; L V

' Fig. 27 is an enlarged section on line 21-41 of I the switch- In its general features the device particularly selected for illustration and description comprises a base adapted to support a rotary turntable on which a mixing bowl is placed; a pedestal rising from the base; a bracket pivoted to the pedestal to swing in a vertical plane and in a-position to overhang the base; an electric motor member detachably supported on top of the bracket, and having a gear casing and gearing located at the outer end thereof; agitator or beater shafts depending from the gear casing and adapted to extend down into the mixing bowl to stir its contents; an extractor or reamer shaft extending upwardly from the gear casing and adapted to drive a reamer located in a juice-collecting and deliveringbowl; and a power shaft having a power socket or outlet associated therewith,

which power shaft is driven bythe gearing in the gear casing at a reduced speed, and is adapted to operate food choppers and like appliances which require considerable power.

In the example selected for illustration and description, the base is indicated generally at A,

the pedestal at B, the pivoted bracket at C, the

motor member, which encloses the. motor and also the driving gears, at D, the depending agita-- tors or beaters at E, the fruit reamer at F, the juice-collecting bowl at G, and the power socket at H. On the base A is a rotary turntable I adapted to support a mixing bowl J in which the beaters E operate. The motor member D has a detachable connection with the bracket C and is provided with a handle D by means of which it can be held by the hand of the operator when detached from its support. An electric switch having an operating member K located adjacent handle D controls the starting and stopping of the electric motor and the speed at which the motor is operated. a

The base A is equipped with two socket members 30 and 3|, either of which is intended to support a mixing bowl rotatably through the medium of theturntable I. When the latter is mounted in the member 30, the bowl J, which is a large bowl, will be located relatively to the I agitators E in the manner indicated in Figs. 1

and 2, it being noted that the shafts of the agitators E are disposed in a plane offset from and substantially parallel to a vertical plane passing lengthwise through the motor member at the center thereof. The socket member 30 is prefer- V ably in line with the vertical center plane of the motor member, which plane also passes through the center of pedestal B. The socket member 3| is somewhat ofi'set, and closer to the pedestal, and enables a smaller bowl (not shown) to be mounted on the turntable in a somewhat difi'erent relation to the agitators.

' The socket members 33 and 3| are mounted in the base A for vertical adjustment in the manner shown in Figs. 26 and 2'7. Each socket member is of cup-shaped formation having a closed. bottom portion 33 and an upper lateral flange or rim 33. The outer surface ofthe socket member body is provided with screw threads 34 engaging a tapped hole 35 in the upper wall 33,

of the base member. so as to becapable of being screwed upwardlyand downwardly therein. The bottom portion of-the socket member is cmrounded by a washer 31 clinched in an annular groove and acting as a stop which abuts shoulder 38 to limit upward adjustment of the socket member, whereas downward movement of the socket member is limited by the flange 33 coming in contact with the upper surface of the base. The socket member has asocket 39 in the-bottom of which is clinched an anti-friction ball 40 adapted to support from below a swiveling pin 4| carried by the turntable I and introduced into the socket member. The swiveling pin 4| is nonrotatably connected as by riveting to the turntable body, as indicated at 42, and the exterior side surface of the pin 4| engages the inner For the purpose of preventing the socket mem- .ber when adjusted from being shifted out of its adjustment by the slight vibration of the machine, or otherwiseQI have provided means for preventing angular movement of the socket member except when it is desired to adjust the same.

Preferably this means takes the form shown in Figs. 26 and 27, wherein the socket member'has the threads of its body interrupted by exterior longitudinal grooves 43, of which four are employed in the example shown. In association with each socket "member is a spring-pressed device such as a ball 44 adapted to be'pressed into any one of these grooves. In the form shown a helical spring 45 is common to the two balls 44, being interposed between them, as shown in Fig. 26, so as to press one. ball into a groove ofone socketmeinber and the other ball into a groove of the other member. To enable this to be accomplished, the spring 45 is arranged in a curved groove 46 at the under portion of the base, and is held in place .in said groove by a cap plate 41,

which in turn is held in place by a screw .43, as

shown in Fig. 26. It will be noted that by this arrangement the ball has a strong tendency to arrest rotation of the socket member at each"- quarter revolution, 'at which time it is pressed into one of the longitudinal grooves, and in this manner the socket member, when once adjusted to give the proper vertical adjustment to the turntable, will not readily come out of adjust ment. The advantage of adjusting the turntable vertically arises from the fact that in this manner the distance between the bowl bottom and the bottoms of the agitators E can be adjusted so as to be best suited to the particular operation of mixing, heating or the like, which is taking place.

The pedestal B and beach are preferably constructed of metal, pedestal B being of hollow construction and suitably attached to base 'A, and having therein adjacent its upper end a flush pivot pin 43 which serves for pivoting the bracket C. The bracket 0 comprises a hollow-metal shell formed so as to provide inefiect an eitension of the pedestal, and this s ell is closed at the bottom. as shdwn at 50, an

. top. as shown at II, where it underlies and conforms to the surface of motor member 1), occupying a groove 52 in the surface of the motor member, as shown in Figs-6 and 7. A pin 33 haying a smooth body'and a-rounded smooth top I open at the section ing the and the upper end portion of this pin, which extends upwardly somewhat above the upper edge of the open top portion of the bracket, and which is substantially vertically disposed when the parts are in the position shown in Fig. 1, has its upper end in engagement with a cylindrical socket'Bi provided in the lower wall of motor member D. In this manner the motor member is held from lateral or longitudinal dislocation with respect to the bracket, but the motor member, when the handle D' is grasped by the hand, can be readily lifted oil. of the bracket so that the motor member can be used separately from its support.

The pivot pin as, previously mentioned, pivots the bracket to the pedestal so that the former can swing in a vertical plane, and for this purpose said pivot pin engages 2. depending lug e'l integral with the bottom of the bracket, the pivot pin being in the open end portion of the hollow pedestal, and being disposed approximately midway of the length of lug e l through which it extends. Lug has an angularly offset portion as at-its lower part, with a lower socketed face adapted to be engaged by the head 59 of a plunger 60, acted on by a compression ,screw 65 interposed between said head and an abutment 62 located within the pedestal.

The action of the plunger, acted on by the compression screw to exert spring pressure on the lower end portion of lug bl, is such that when the parts are in the position shown in Fig. 1, upward tilting of the. bracket isresisted somewhat by the spring until the bracket has passed a certain position, after which the upward swing of the bracket is facilitated and the bracket urged into and resiliently held in its most elevated position, as shown in full lines in Fig. 6. Thus when the bracket is moved to sition, it is reliably held in that position, and will not readily be displaced. The reason for this action'is that the lower end portion of lug 81 and the sprin -Dressed plunger form together a sort of toggle, which 'tends'to swing. under spring pressure, to one side or the other of a central position.

Upward movement of the bracket beyond the position shown in Fig. 6 is prevented by the impingement of a toe portion 63 of the lug 51 against/the inner. surface of the pedestal, and,

movement of the bracket in a downward direction is arrested by impingement of the upper front portion of the upper part of lug ill against aconiorming surface 84 within the upper end of the pedestal.

Referring now to the construction of the motor member D, it will be noted that the same comprises an, approximately oval casing, preferably constructed of Bakelite. or other, suitable plastic material, which can be molded in the desired form, and made in ,sections, which with their contained mechanical parts are secured together to form the completed motor member. ,The -casing, whi ch is indicatedat 65, is divided transversely atline 68' to form a rear 81, given up for the most part to houswith other parts,,gea.ring for driving the-agita.-.

I .tors'and thereamer shait; Front'section .II "in turn is divided'horizontally so as tolform threeparts, namely;:tiower part 8; intermediate part I0, and .upper part |l.. It is. to the'last-named its uppermost 'pothe. handle is likewise preferably of plast ic' ma-;

terial, being molded integrally, with part II, from which it extends rearwardly in a location above part 08 so as tooverhang the same. Adjacent the location where the handle I) is joined to the casing, a hollow enlargement or chamber 12 is provided, in which switch-operating member K-is disposed, said member preferably being in the formof a rotary knurled disk projecting somewhat to'the exterior of thecasing through a slot ll therein. This switch-operating disk is preferably disposed at one side of the casing so that, when the handle D is grasped by the hand of the operator, his thumb will conveniently lie over the disk in a position to actuate the same readily. At the opposite side of the casing, that is to say, at the opposite side of the handle with respect to the switch-operating member, the enlarged chamber portion I2 of the casing has joined thereto an upwardly projecting sleeve member or collar 1d, preferably molded integrally therewith. The outer surface of this sleeve member is beveled, as shown particularly in Figs. 1 and 3, and is adapted to have seated thereon the correspondingly shaped socket portion of the juice bowl G.

The arrangement of the motor in the rear section '81 of the casing is shown in Fig. 4. The electric motor, which for the most part is of usual construction, is indicated atv l5, the;same having a field magnet structure 16 with field windings Than armature I8, and a shaft 19. Within the rear closed portion of casing section 61 is mounted a rockably adjustable bearing as receiving the rear extremity of the motor shaft. 19. The motor shaft is of considerable length, having a portions! extending into the front'compartment of the casing for driving the gearing. The armature I8 is provided at the rear with a commutator 82 contacted by brushes supported from the casing. The brushes proper areconstituted by cylindrical bodies 83, sliding in metal tubes 86, each of which projects at one end-to the exterior of the casing, 'and at the, opposite motor, and a front section 88 containing, v

' construction, as shown in Fig. ,4; the

end into the interior of the caslng. These tubes are'fixed permanentlyjin the casing ,by being molded directly in the. casing wall... Screwed to the outer ends of thetubesare caps 8,5, and;be+ tween the under surfacesfoi' these caps and the brush bodies helical springs 86 are confined, whish urge the brushesagainst-the commutator;

It is important to notethat in my 'lmproved br od e instead of being perpendicularto, the commute. tor axis, are arranged at a slight-anglethereto. There is a brush at each sideof the casing and each brush has its inner end, located slightly in advance of its outer end, the; axis of thebrush being at a slight anglefto a plane extendingtrans versely of the commutaton This arrangement has any important advantage; inpraptica, ,in that the brushbody ispreiyented fromturning: on its axis during rotation of the motor armature yandlv hence is permanently held wi h ;S; eurvcdr, end

in proper conformity to. the commutator surface.-

.The field magnet core 16, which is laminated; asushown, v;is held in place-in compartment ilfofz the; casing by means of screwsEBJ. 1 These :sc'rews are threaded-at theirinner;extremitiesglas shown? at "1 n l h. e :extremitiest. screw small metal sleevesyflrgmoldedi insaplace inxithe'ncasing walL In ,frontw ofthe laminations ofrzthetacoref I the; screws .81 are surrounded; by il'spacinge'collars j that :space f rom itheicoresairing raitoffsuitable insulating material such as fibre. The heads 92 of these screws are disposed at the outer face of ring SI.

- Outside of the ring 9| but in proximity thereto, the shaft portion 8| of the motor has fixed thereto a fan or air impeller 93,.which acts as a means for ventilating the motor, and also in connection with other devices as a means for regulating the motor speed. Adjacent this im: peller the motor shaft is provided with a hearing similar to that used at the rear end, comprising a rockable bearing member 94 through which the shaft extends. This bearing is supported and carried by the lowermost part 09 of the front section of the motor casing, and it is for the purpose of mounting this bearing that said part'GS provided at its rear end with the upward extension 95,, shown in Fig. 13. The part loops being constructed of pressed sheet metal.

,69 has. an upper wall 96 over which lies the forward end portion of the motor-shaft, which end portion is in this location provided with the oppositely directed worms 91 and 90, which are preferably-formed therein by cutting of the shaft. The worm 01 engages a fibre worm gear 99 having a shaft I00 operating in a metal sleeve or bushing IOI set in wall portion 96, and extending downwardly within casing part 69. .worm 08 engages a fibre gear I02 having'a shaft Each loop is constructed of two sheet metal pieces or heater elements I I0 each having its upper and lower ends curved in toward the shaft or shank, and there provided with tongues or tabs H1 and H8, tab II1 being at the top and tab H8 at the bottom. The body of the agitator shank is constructed in two parts, I I0 and N0", the former of which is provided at its lower end with an integral knurled pin 9. The part II0 I is of hollow cylindrical form, and the beater ele- '25 Similarly,.

- I03 supported in a sleeve or bushing similar to I bushing IOI. The fibre gears'are pinned to their shafts by pins I05 projecting from the respective shafts into slots provided in rings I00 constituting liners for the fibre gears.

The shaft I00, through the pin and slotconnection just described, is driven from the worm gear 99, and this shaft at its lower end drives one of the agitators E, and at its upper end has an extension I01, best shown in Fig. 5, acting as a reamer drive shaft and as a driving means for v the power shaft. The shaft I03, driven by fibre gear I02, is similar to the shaft I00, but has no upward extension, and terminates in a head I08 disposed immediately above the fibre gear. Each of the bodies of shafts I00 and I03 is hollow or formed as a sleeve, and operates in its bushing in the casing, and the bushing stops short of an opening I09 in the bottom of the easing, into which opening the shank of the corresponding agitator E may be inserted for coupling the agitator to the corresponding shaft I00 or I03. The shank IIO of the agitator .is of a diameter to .fit within its hollow driving shaft, and the upper end of the shank is equipped with a stud II I, split vertically so as to have a certain amount of resiliency. This resilient stud is adapted to snap into engagement with a socket I I2 in the body of the shaft I00 or I03 so as to fasten thefagitator shank in place in its driving socket, although perments or blades Hi are attached to the lower portion thereof by a knurled pin I20. Inconstructing the agitator, the tabs H1 at the upper ends of the beater elements are forced into and vlocked within the open upper end of member II0 by the pin H9, and similarly the tabs IIO are locked in the lower end of member II0 by the knurled pin I20. The pin I20 has a head I2I which holds the blades IIS against the lower edge of member 0. Preferably the blades are reinforced by providing each of the same in its vertical portion with a depression I22 so as to form a strengthening rib therein.

Reverting now to the mechanism driven from the upper end of hollow shaft I00, it will be seen that the extension I01 on this shaft isjournaled at its upper end in a metal bushing I23 in the form of a long sleeve mounted in the upper. part of the casing and having its upper end portion located within the casing collar 14, previously mentioned. Metal sleeve I23 is formed as an extension of a metal housing I24, which serves, among other things, as an upper bearing member for a horizontal. power shaft I25. Adjacent the lower end of sleeve I23 the upright shaft portion I01 is provided with mitting the removal thereof by a'slight pull when that is desired. The socket H2 in which the split stud III is held is formed in part by an annular member II3 held rigid with respect to the hollow shaft member by being riveted or clinched in place therein in the location shown in Fig. 5.

For the purpose of interlocking each agitator shank with its hollow shaft member so that-the shank will be driven from the shaftVthe latter is provided at its lower end with diametrically located slots II4 adapted to be engaged by small lateral lugs II3 pressed up fromthe body of the agitator shank. These lugs operate in the corresponding opening I30 in-the bottom of the casing, for the purpose of permitting ready manipulation of the agitator,

and more particu larlyits withdrawal from the driving socket when" taking upward thrust on shaft a flange or collar I26, and between this flange or collar and a shoulder I21, an anti-friction bearing I23 is interposed for the purpose of portion I01. Within sleeve I23 the upper extremity of shaft portion I01 is provided with a diametrical slot I20 receiving .a driving tenon I30 on a removable reamer shaft portion I3I, which fits into sleeve member I23, and has rigidly attached to its upper end portion ,in any suitable or preferred manner the juice reamer I", previously mentioned.

The metal housing member I24, previously mentioned. is in general of semi-cylindrical formation, and is attached to and carried by the intermediate member 10 of the front casing section in the manner shown in Figs. 17A and 1713.

Between it and the body or web portion of member 10 are provided the bearings for the power shaft I23, aridsaid parts in conjunction-also form the power socket H. Adjacent its rear end shaft I20 carries a worm gear I32, which is driven by an inter-engazing worm133 out directly in shaft extension I01. At the rear of worm wheel I32, the power shaft has a bearing I33 between member I24 and a channel-shaped portion I34 in member 10, and in front of gear wheelI32 the power a'haft has a'similarbearing I33. The

power shaft extends forwardly to a relatively slight extent beyond this last-mentioned bearing and is provided at its forward end with a die-,-

chopper or other appliance to be driven. Fig.

18 shows how the power socket is provided between the channeled portion I 34 of member I0, which forms its bottom, and the metal housing member I24,*which forms its upper wall. The member I24 is secured to the body or web of member I by suitable screws I31, having their heads disposed at the lower side of member-I0, as shown in Fig. 173.

In the wall of the power socket H longitudinal grooves I38 are provided at diametrically opposite points, one of these grooves being in the member I24 and the other being in the channeled portion of member I0. At the Inner ends of the grooves I38 and at approximately right angles thereto are lateral grooves I39, which communicate with the longitudinal v'grooves. An accessory appliance to be driven from the power shaft is indicated by dotted lines at I40 in Fig. 17, the same having a shaft I4I adapted to have its tenon engaged in the groove I36 of the power shaft. oppositely located pins or studs I42 on the bearing sleeve I43 of the accessory appliance are adapted to be engaged in the inner ends of the groove portions I39. It is a feature of my invention that the grooves in the power socket have the angularly disposed inner end portions its for the reception of the pins or studs on the accessory appliance, and also that the power shaft be driven in such a direction, as indicated .by arrows in Figs. 17 and 19, that the pins I02 will be forcedagainst the closed ends of their receiving grooves whereby the rotation of the power shaft will have theefl'ect of more firmly seating the accessory appliance in, the power socket and overcoming any tendency'toward the dislocation thereof by vibration or otherwise.

It will be noted that the uppermost member II of the front casing section is provided at the front end with 9. depending wall portion I430 extending down over the front of member It to the front wall of the lowermost member 59, as shown in Fig. 18. In this wall portion or tab Ifld is formed a round hole I45 in line with the body of the power socket proper. This hole I65 can be closed ed in an appropriate-manner when the power socket is not in use, and for this purpose an ornamental plug I 46, such as shown in Figs. 3 and 19A, may be used. This plug is molded from plastic material, and is of substantially cylindrical shape, and has at its rear end, mounted on a screw I41, a spring-pressed crosspiece I48 extended at its ends beyond the body of the plug and adapted to ,be engaged in the grooves of the power socket wall, by rotation of. the plug, for the purpose of locking the plug in place. At the front of the plug, the latter is provided with a crossbar I49 (Fig. 3) by means of which it may be rotated, and inserted into or removed from the mouth portion of the power socket. r

In the lower member of the front casing sec-- tion is located a governor or automatic switch mechanism K for controlling the operation of the motor, said mechanism being operable from the operating member or disk K, previously referred to. Large views of this mechanism are shown in Figs. 21 to 24, inclusive. In its broader aspects this mechanism is similar to that disclosed in Patent No. 1,494,189 toPercyRussell and Edward Burke Wilford, dated 13,. 1 924, but in many ways the present mechanism istan improvement. It is of the type in whichthere is combined with an electric motor, an electric switch for controlling the motor, an air-coinpressing device actuated by the.motor,,means operated by air from said device for alternately opening and closing the switch while, the motor is in operation to maintain the motor speed substantially constant, and a device for adjusting the switch-actuating means to vary the motor speed. In the present instance the, fan 03 on the motor shaft is arranged to blow air against the casing by a screw I50. The frame I5'l also a member I50 in the nature of a bucket in the form of a segment of 'a circle, and which in this case is located beneath the fan or im-- peller. The member or bucket I50 is rigidly attached as bymeans of a rivet I5I to the ex-' tremity-of a lever I52 having a slotted portion I53 with struck-up cheeks I54, between which passes a pivot pin I55 by means of which lever I52 is pivoted on a post I50 on the metal frame I51 located in the section 08 of the casing. The

frame Hill has a longitudinal member I50'attached in place adjacent a longitudinal wall of comprises a portion I extending at right angles to portion I58 and attached to casing member 09 by a screw IGI'. -At the rear end'of the lever I52 the same is provided with a depending counterweight It? adjustable therealong in a slot I 63, said counterweight being clamped in position by a nut I64 on an adjustable stop screw I65 adapted to make contact with a fixed part I66 of the frame. A helical spring I61, acting upwardly against lever 152 at a point somewhat in front of pivot pin I55, normally holds the adjustable stop screw I 55 in contact wi-thlpart It'd. The spring lei is in a socket I58 in'the bottom of the frame I51 above a ball I69, which is in turn located above and in contact with a screw plug I70 screwed into the bottom of the socket and adapted to be adjusted adapted to make and break contact with a similar contact member lit carried by and depend-. ing from the front end of a lever I'M, which is preferably pivoted or fulcrumed coincidentally with lever I62. For this purpose the rear portion of lever IIII, which is formed of ap1at'e-I'I5 of insulating material, is disposed in the. open or slotted portion of lever I52, and is mounted on and pivoted by pivot .pin IEIEI, said insulating portion I being disposed between cheek portions Iid of the post carrying the pivot pin. The insulating portion or plate HE is continued forward into the metallic front end portion of lever I'M, and is provided with an upwardly extending linger I'II, making contact with a lower or cam face I78 on a rotary member Ill, having a gear wheel let integral -therewith, said gear wheel being rotatabl in a horizontal plane,- and held in position on a post or hearing III- of the frame by a screw member I02. Meshing with the gear portion I00 is a gear wheel portion I03 formedvintegral with a wheel member I84 having a hub I05 with a diametrical-slot I86. The slot I86 is'adapted to be, engaged by a key portion I81 formed at the lower end-of an on shaft I88.

operating shaft I88, said key portion I81 preferably being created by bendingup opposite lugs lire lower end of shaft I88 rests in slot I88, and at its upper end, as shown in Fig. 5, shaft I88 has a similarly formed diametrical key I88 engaging a correspondingly shaped slot I88 in the operating disk K, whereby rotation of member K will cause rotation of shaft I88. The upper end portion I8I of shaft I88is of reduced cross-section, and has a bearing I82 in the upper wall of the uppermost casing member 1I. Thiscasing member adjacent the different positions being NO. 1, No.2, No. 3, and

- so on up to No. 16. These designations on the slot 18, previously mentioned, has a small metal member I88 as a reinforcement to that portion of the casing which receives the upper end of shaft I88. The member I88 isprovided with a spring arm I88 whose extremity bears against the upper surface of member K to exert friction thereon and hold the member in the position to which it is adjusted. At I88 is a small depression on the top of the disk in which the end of the spring arm rests when the switch is in the off position.

The contact member I13 of lever I14 is normally held in the position shown in Fig. 23 by a coil spring I84 connecting the rear end of lever I14 with the metal frame. Adjacent the forward end of lever I14, the same is provided with a binding screw I85 for the connection of an electric wire I88. For the purpose of establishing good electrical contact between the frame I51 and the rear extremity of lever I52, a bind-* ing screw I81- on the frame is connected by a wire I88 with the upper end of stop screw I85,

for which purpose the upper part of said stop.

screw is provided with a clamping nut I88.

The electrical connections of the device are illustrated diagrammatically in Fig. 21, from which it will be noted that one of the line conductors is connectedto one of the brushes of the 'motor, a condenser 288 being in shunt around the motor armature. From the other brush thelead goes to one portion of a split choke coil .28I, a condenser 282 being shunted across said choke coil. From the first-mentioned portion of the choke coil the conductor passes to screw I8I, so that current is introduced into the metal frame I51. In this manner current is carried to the con-tact member I12 on lever I52. When there is. contact between members I12 and I18, current is carried into the front metal portion of periphery of the disk are adapted to be brought into registry with an indicating line non the casing, as shown in Fig. 8. i

It is important to note that in my .improved mechanism-the "ofl position of the diskis between the speed position No. l and the speed position No. 16, and that from the "off" position the disk can be'rotated either in a clockwise direction or a counter-clockwise direction, so as to be moved successively to the positions 1, 2,8, etc-., or to the positions 16, 15, 14, etc.

At the rearend of the casing ventilation openings are provided which permit the ingress of air into the casing at this point, and preferably these openings, which are indicated-at 288, are

disposed in two series at the respective sides of the casing, said series following arcuate lines whose centersare located at the casing axis. The air entering the casing through these openings is drawn in by the fan or impeller" so as openings, which are indicated at 288, are at the forward edge portion of the r-ear casing section, and preferably also these openings 288 are constituted by notches which are formed in the forlever I14 to screw I85, conductor I88, and the other side or section of choke coil 28I, which in.

turn is connected with the iield 2l'8 of the motor which is connected to the other llne conductor. as shown in Fig. 21.

When the switch-operating member K is in they of! position the governor mechanism has the position shown in Fig. 23, the contacts I12 and I18 being slightly separated, and the stop screw I85 being incontact with part I88. It will be noted that in this position the finger I11 of insulating material on lever I14 is engaged in 1 a depression 284 of cam wheel I18. At one side of this depression the cam wheel has a deep ward edge of the wall of casing section 88 at a number of points in its upper periphery, the

notches being closed at-thelr forward ends (so as to form said openings) by joining a part of the front casing section to the 'rear section. Thus the ventilation and cooling of the motor, is

. provided for, while at;the sametime the bucket I58 operates in a space sufllciently enclosed to cause outward movement of the bucket with relation to the impeller as air pressure is built up by the latter in the lower part of the casing. As the bucket moves outwardly there is a tendency to separate the contacts I12 and I18, and as the bucket moves inwardly (the air pressure exerted by the impeller being reduced) there is a tendency of contacts I12 and I18 to re-establish the circuit. I

In the position of the governor mechanism shown in Fig. 23, the switch-operating disk is in the oil'' position, the front end of lever I14 being drawn upwardly by spring I84 to the. upper limit of its movement, where, owing to the contact of screw post I88 with part I88, it is impossible for lever I52 to establish contact therewith.

Upon movement of the partsto the position shown in Fig. 24 (by movement of switch-operating disk toposition I8) the switch parts will be moved to the position giving the highest motor speed for which the device is adjusted. In this position lever I14 is swung by its operating cam into the lowest position to which it can be moved by the cam, and'in turn b'y'contacting lever I82 carries the latter to a corresponding position, in

which the bucket I88 last a substantial distance from theperiphery of the impeller. In this position of the parts the contacts I12 and, I18 close the motor circuit, and the speed of the-motor continues to build up until it reaches a high 1 speed, only an even higher speed tendency being effective to separate the contacts by further outward movement of the bucket member, and this temporary separationlof the contacts having a tendency to slow down the motor. 8upposing,

} introducing a small wol 9,247,707 on the other hand, that the switch-operating with member I12, which will start the motor. However, as the motor speed starts to build up,

. air pressure exerted by the impeller on the bucket will soon force the bucket downwardly, and this will open the circuit. The motor will thenhave a tendency to slow down, 'and as it slows down the air pressure against the bucket will decrease, enabling the bucket to move upwardly to re-establish the circuit as soon as the pressure against the bucket reaches a predetermined low value. In this manner the motor circuit is interrupted and re-established at intervals as the air pressure in the lower part "of the motor casing fluctuates, the elfect being to cause the motor to operate at a substantially constant p d.

In a similar manner the motor will be automatically controlled .when the switch-operating member is in position No. 2, the speed in this case being somewhat higher than speed No. l, and speed No. 3 being somewhat higher than No. 2, and so on. v

It is of considerable importance that the switch-operating member can be oved directly from the "oi!" position to the position giving the to bring contact member I13 down into contact highest speed, or to the position giving the lowest speed, without the necessity of going through the intermediate speed positions in reaching high speed, as this greatly increases the convenience of operation. lt is also of importance that a comparatively large number of intermediate speeds are provided, as required for different operations performed by the device, and that, for example, in adjusting the switch to speed No. 13 the switch member can be moved from "ofi through positions 16, 15 and 14 to position 13, instead of having to .go up from 1 to 13, as would otherwise be the case.

If the setting'of the switch is such as to make the motor speeds either higher or lower than those desired, the setting may be changed by through opening ill in the bottom of the casing so as to adjust plug H9 and thereby change the pressure exerted by spring it? on switch lever H52.

The electric conductors extending to the motor from the usual attachment plug (not shown) are preferably housed in a flexible sleeve 28? extending into the rear portion of the casing at one side of the latter, the casing having a slight enlargement 298 where the sleeve passes into the same.

It will be noted that at the rear extremity or lowermost front casing' portion 6!, the curved wail of the latter is provided adjacent its inner face with inwardly projecting lugs 209, as shown particularly in Fig. 13. The wall oi part 10 is provided with inwardly extending "flanges 280 at its rear end, and the curved wall of part H is provided with flanges 2, while at the upper central part of its curved wall the part H is provided with a downwardly projecting key part H2. The front end portion 01' rear casing section 81 is provided with a pluralityof forwardly extending locking lugs, as shown more particularly in Figs. 9, 10, 15 and 16. At the top of this section are locking lugs 2|! between which lug M2, previously mentioned, is adapted to iit.

' efiect thereon.

- 1939, nor do I claim herein motor member, which is other suitable formed in the desired shape so as to be attrac At the sides of section 61 area plurality oi 2, which are groovedson their outer as indicatedv at Iii. Section 1,6] is also provided at certain points with lugs. 2" having plain or ungrooved Outensurfaces. I I

After the motor has been built into section 61, the latter is ready for assemblage witlrthe other parts of the casing. The'front lowerpart of the casing has the motor switch and its ad- .iuncts installed therein, andgear Ill is placed in position. This part of thecasing can then be assembled to section 61, and in this operation'the lugs-2H will be passed between thelugs 20! and then turned so as to interlock therewith as'part 69 comes to its' final position. In this assemblage worm 98 will mesh with gear III. In the next operation gear 98 will be placed in position relative to worm 81, and casing part It,

with the elements carried thereby, lowered into position, with the flanges Ill engaged with lugs 2H, and at the sametlme upper casing part 'II can be placed in position, with its flanges 2H engaging the lugs 2H, and with its central lug 2l2 engaging lugs 2|! in the'manner shown in Fig. 9. The casing parts are then in a position to be locked together by suitable screw bolts,

22!, having associated therewith spacing sleeves '222, and having their headed ends in scckem 22s of part he, engage at their upper ends threaded sockets 22% in the upper wall or web of part it. Preferably parts it? and it, before.

being mounted on part 58, are fastened together by small screwstzt engaging threaded sockets adjacent the ends of a wall 226, which extends across part 15 intermediate of its ends, and is cut away at 221 so as to fit about the upper portion of the power socket.

It will be seen that the general organisation of the main parts or members of the device is such as to lend itself to a stream-lined device. and that the casing, being smooth and substantially devoid of projections, can easily be kept clean. The agitators are also of such a construction that they can be readily cleaned, and

there is a notable absence of angles and recessw inwhich bacteria canlodge. The casing of the made of Bakelite or plastic material, can be readily tive in appearance, and it is light in weight and also non-rusting and resistant to the acids of fruit and vegetable juices,

motor construction as the same are claimed in my application Serial No. 267,371, filed April 12, the means for con-' trolling the vertical adjustment of the turntable as the same are claimed in my application 8erial No. 379,817, filed February 19, 1941'.

It is a distinct advantage of my device that it is provided with a power socket at the front end of thecasing, built within the lines of the casing so as not to have projecting parts, and in connection with which the use of an external etc., which have no clamping screw or the like for fastening the appliance in the socket is not required. It is also anadvant'age that the power socket ,is readily accessible at all times without the need of dis:

turbing the handle for the motor member. The construction is also simplified and improved by providing the power socket with grooves having angularly related portions, with the pins or studs on the accessory appliance forced into the ends of the inner slot portions by the rotation of the power shaft.

While I have described a preferred embodi- ,ment of the invention, his to be understood that the latter is susceptible of numerous different embodiments, and that many modifications and changes in the construction can be made without departing from the principles of the invention or the scope of the claims. I

What I claim is: .1. A kitchen-utility device comprising a com- .bined motor and gear casing divided transversely into a rear section and a front section, the. front section in turn being divided into a lower part,

an upper part and an intermediate part, a motor in the rear section, beater-driving gears in the front section, an upwardly extending reamer shaft in the front section, a power shaft driven by the reamer shaft, and a power socket associated with the power shaft and open at the front end of the casing, said power socket being located partly in the upper part of the front section and partly in the intermediate part of said section.

2. A kitchen utility device comprising a combined motor and gear casing divided transversely into a rear section and a front section, the front .section in turn being .divided into a lower part,

an upper part and an intermediate P rt, a motor the reamer shaft, a power socket associated with in the rear section, beater-driving gears in the front section, an upwardly extending reamer shaft in the front section, a power shaft driven -by.the reamer shaft, and a power socket associated with the power shaft and open at the front end of the casing, said power socket being located partly in the upper part of the front section and partly in the intermediate part of said section, and said upper part of the front section having an integral enlargement with a handle extending rearwardly therefrom. i

' 3. A kitchen utility device comprising a combined motor and gear casing divided transversely into a rear section and a front section, the front section in turn being divided into a lower part, an upper part and an intermediate part, a motor in the rear section, beaterdriving gears in the front section, an upwardly extending reamer shaft in the front section, a power shaft drivenby the power shaft and open at the front end of the whereby they are interlocked with each other,

said front section comprising superposed parts separably connected, a motor in the rear section,

gear mechanism in the front section, the superposed parts of said front section including a separate intermediate part, and a juicer shaft and power shaft assembly carried by the intermediate part and operable from said gearing.

5. A kitchen utility device comprising a combined motor and gear casing having-an electric motor in the rear part and gear-driven agitators depending from the front part, the front part of said casing being of smooth rounded shape at the forward end and comprising three. separate portio'ns separably interconnected, namely, alower portion, an intermediate portion and an upper portion all together providing said smooth rounded shape, said upper portion having a rear-. wardly directed handle spaced upwardly from the body of the casing, and said front part of the casing having an interior motor-driven power shaft and a power socket substantially within the lines of the casing open at the front end of the latter, said power socket being horizontal and located partly in said upper portion and partly in said intermediate portion.

6. In a kitchen utility device of the type in which a power-drivenagitator member having a handle by, which it can be lifted is removably supported on the upper end of a standard, the combination of an agitator member casing formed at its lower rear portion with a shallow exterior groove, a standard-supported bracket part having an open upper mouth whose edges fit in said groove at the respective sides thereof,

and a pin having a lower end secured within the bracket and an upper rounded end projecting upwardly out of the bracket and into a socket formed in the lower part of the agitator member casing.

RICHARD ,H. JORDAN. 

